Selective mechanism



June 2, 1931. REMERY v '1,808,597

SELECTIVE MECHANI SM Filed Jne 23, 1925 12 sheets-sheet '1 R. EMERY l 1,808,597.

SELECTIVE MECHANISM Filed June '23, 1925 12 sheets-s neet 2 June 2, 1931 m :Wm-

June 2, 1931.

R.EMERY SELEGTIVE MECHANI SM 12l Sheets-Sheet 3 AHts vATTORNEY;

Filed June 23, 1925 June 2, 1931. R. EMERY- SELEQTIVE MECHANISM Filed June 2s, 1925 12 Sheets-Sheet 4 H |55 A'TToRNEY June 2, 1931. R. EMERY SELECTIVE MECHANISM 12 sheets-sheet .s

Filed June 25, 1925 y INVENWR i 6 HY H|$ ATTORNEY En. si

June 2, 1931. R, EMRY 1,808,597

SELECTIVE MECHANI SM Filed June' 25,' 1925 1,2 Sheets-Sheet 7 l las loorl June 2', 1931. R.- EMI-:RY

SELECTI'VE MECHANISM l Fi1ed'June 2s, 192s 12 sheets-sheet 8 ...ohm

SAS 3&2 oli A'INVEN' 0R HIS'TTORNEY June 2 1931. R EMERY 1,808,597

A SELECTIVE MECHANI SMl 'Filed Jupe 25, 1925 I2 shets-sneet 9 h 4i N HIS ATTORNEY f June 2, 1931. R, EMERY 1,808,597

SELECTIVE MECHANISM l Filed June 25, 1925 12 sheets-sheet 1o l Jl'lne 1931.

R. EMI-:RY sELEcTIVE MECHANISM lFiled June 25, 1925 12 sheets-sheet 11 .wmv 2% lNvEN'ToR.. 3&0# may ngz! ,ff

ATTORNEY JuneZ, 1931.

l R. EMERY SELECTIVE MECHANI SM lFiled June 23, 1925 12 Sheets-Sheet l2 H IS ATTORNEY Patented June 2, 1931 UNITED psTlvrEsA ROY EMERY, OF BROOKLYN, NEWiYORK i sELEcTlvE MECHANISM Application filed .'Tiune 23,

This invention relates to selective mechanism comprising a keyboard which controls operating units by means of a small number of bars, some of which are moved in various combinations simultaneously for each selection. The device may be applied to power typewriters, printing telegraphs, cardpunching machines, etc.7 and is specifically adapted in this case to atypographical machine of the circulating matrix class.

An object of this invention is to provide means whereby a relatively small keyboard, vsuitable for a touch system of operation, may control a relatively large number of different characters.

Another object is to provide akeyboard in which the arrangement of characters may be Vdifferent from the sequence of units controlled.` Y I Another object is to reduce the number of parts inthe keyboard andesca-pement mechanism of typographical machines, and to pro-l vide escapement operating mechanism which may 'be placed either above or below the mag- 5 azine controlled'. Also to provide a keyboard which may be. placed in any convenient position, that is, one which need not be directly in front of the magazine. Y

Another object is to provide a simple case shift adapted not only for lower case, capitals and small capitals, but also for main and auxiliary magazine shifts.

Another object is to provide a matrix es capement of fewer parts and which will posi- 5 tively eject a matrix. The selective mecha.-

nism is so designed that no matter how many keys may be operated simultaneously,accidentally or otherwise, only one combination of bars is moved, and thus only one matrix o can be released at a. time. This feature prevents machine transpositions and pied ma,- trices in assembling.

Referring to the drawings:

Fig. 1 is a. perspective view showing the general arrangement and plan of my invention as applied to a circulating matrix typo-4 graphical machine;

Fig. 2 is a preferred form of keyboard;

Fig. 3 is a detail view showing the crank elements for actuating the releasing means;

1925. seran N0.39,155. Y

Fig. 4 is a vertical sectional view' of" the keyboard mechanism taken on the line 4"-4 ofFig.2; l

Fig. 5 `is a vertical sectional view takenon the line 5*.5 of Fig. 2; g'

Fig. 6 is a detail view'show'ing means of locking and unlocking weights of the key# board mechanism, taken on line 6-6 lof Fig. "7;

Fig. 7 is a se tional view through line 7-f7 ofFig.6; n I

Fig. 8 is a fragmentary view of certain details of the keyboard mechanism;

Fig. 9 is a sectional plan showing details ofthe shifting mechanism; Y

F ig. 10 is a sectional view on the line 10-10- of Fig. 4; in which the lineof vision is as ysumed to be inclined downwardly approxi'- mately 45 degrees from theV horizontal,in order that three dimensions of the parts-may be shown in the drawings; F ig.'11 is a verticaly sectional view similar to Fig. 10; showing one formof the selective weights employed in the mechanismin connection with the form of keyboard shown in Fig.2; l Fig. `12 is a dia-grammaticview indicating the combinations of the selective mechanism used for releasing `matrices from lthemagazine, arranged in the orderV of character channels in general use at present; l i

Fig. 13 is a sectional view through la channel of the magazine showing the application of parts Aof my selective mechanism thereto ;V Fig. 14 is a fragmentary group view'on an enlarged scale showing parts of the selective mechanism; Y l Y y l Fig.V 15 is a fragmentary view showing dei tails of the selective releasing means;

Fig. 16 isa detail view showing parts in section shown in Fig. 15;

Figs. 17, 18 and 19 illustrate various positions of parts of the releasing means; Fig. 2O is a side view of the type of rod shown in'Figs.14 to 19; Y Y

Fig. 21 is a sectional view of the rod shown in Fig. 20;

Fig. 22 is a view of one of tached from the rod;

the camsrfde# 1 m Figs. 23, 24 and 25 are views of modified forms of parts shown in Figs. 14 to 19 transmission mechanism;

-r taken'on the line 40-40 of Fig. 38;

` Fig. 31 is a sectional view through the line 31-31 of Fig. 30; Y y r Fig. 32 is a perspective viewof the vertical rod guide'plate; f Y y Fig. 33 is a sectional plan taken on the line 33-33 of Fig; 30;

Fig. 34 is a fragmentary sectional Velevation takenon the line 34-34 of Fig. 30;

Fig. 35 is a sectional view of record strip perforating mechanism showing the adaptation of my selective mechanism to be employed for suchV purpose; Y

Fig. 36 is a sectional view of a telegraphic typewriter mechanism showing the adaptation of my selective mechanism thereto;

' Fig. 37 is a fragmentary elevational view ofthe mechanism shown in-Fig. 36;

Fig. 38 is a side view of-a modified form of the key weights; Y

` Fig. 39 is a view of the edge of the weight shownin Fig. 38; n

,-'Fig. f 40 is a sectional view of the weight Fig. 41 yis a view of the inner member of the form ofweight shown in Fig. 38;

Fig. 42 shows the outer member of the form of weight shown in Fig. 38; Y Y Y Fig. 43 is a view showing a further modification of the weight;

Y Fig. 44 is a view from the edge of the form l of weight shown in Fig. 43;

`Fig. 45 is a sectional view taken on line 45-45 of Fig.v 43;

' Fig. 46'is a view of a further modification of the weight;

Fig. 47 is a View ofthe edge of the weight shown in Fig.v46. f

Fig. 1 is a general view showing the three principal parts; the magazine unit 100, the transmission unit 200, and the keyboard unit f 300. The magazine unit 'is shown above a magazine for circulating matrices, which is the same as those now in general use, with the exception of modified slots for the escapements. The assembling, casting and distributingfmechanism are not shown. i

YThe keys lare on straight levers, 1 to 64,

which are pivoted near their centers on rods 361 to 365 and are counterbalanced by weights 60m (Fig. 4). .1 All the weights are made alike, each having the projections 60a and l606, which slide in the slotted guides, as 400. Fig.` 8 shows the strip 400, with slots 401, 402, 403, etc.,

for these projections 60a and 606. Each has the five recesses 600, 60d, 60e, 667c and 60g, to serve as bearings for the end of the key levers, but onlyl one is used in each case. At the rear of Veach weightl projectv the eight yextensions 60-I, 60-11, 60-111, 60-IV,

fao-v, (so-v1, eso-vn, and (so-viii.

Eight horizontal blades, 301 to 308, pivoted in suitable vbearings at veach end7 are placed behind theweights, one opposite each of said top plate of the keyboard (Figs. 1, 2, 5 and 9). rlhe pivot permits a right and left movement in a straight line and the flexibility ofV the shaft permits it to spring around the,

curve in plate but tends to keep it up at either end. Theforked rear end of the shaft lits y,

in a Collar 307a near the end-of thejblade 307. The shift key 3006 is similarly constructed and shifts blade 306.

A bar 366 and the leversy 366@` and3666 form the spacing key 367 (Fig. 1

Fig. 2 showsthepreferred form ofV keyboard layout. Each key is numbered` at'the top. The top figure at the right ofeachkey s is the number ofk magazine channel controlled by that key when both shiftable blades arein their normal position. 'lhemiddle number shows the channel controlled by the key -when blade 306 is shifted and blade 307 isnormal.

vThe bottom number shows the channel controlled when .blade 307 isV shifted-and blade 306 is normal. y Y v i The preferred form of keyboard lock is shown in Figs. 4 and 10. A shoulder 308@l on the inner side of the end plate of the keyboard engages the end of the leaf of blade 308 at 3086 when the `blade is shifted tothe left, preventing upwardV movement ofthe blade and consequently, of all the weights and keys.

Figs. 6 and 7 show a'modiied form of weight lock. A. semi-cylindrical bar 3016i, ro-

tatably held in the frame of the .keyboard unit 300, is disposed in such Ya mannerthat the curved surface 3016 will engage shoulders 60t of all the weights. A spring crank 3010 is provided for turning the bar a half revolution to disengage all the shoulders. F rictional button 30166 retains the bar in the desired poistion. y I

` Fig. 10 is a sectional elevation, from an upwardly inclined angle of 45", ofthe keyboard, showing the edges of the blades, taken on line 10-10, of Fig. 4. Fig. 11 is aninverted sec.-

tional elevation, taken 11 pon the same plane as Fig. 10, but looking .in the opposite direction from fthe sectional plane, and thus the parts shown are represented in the same relation as the opposite pages of an open book. Fig. 11 is inverted, accordingly, in the drawings. The character on the key for each key weight is indicated `in Fig. 11. The dotted lines in Fig. are continuations of the dotted linesf from the center lines of the key weights in Fig. 11 and are given the corresponding key numbers 1 to 64 inclusive.

The blades are variously notched as shown in Fig. 10 so that the fingers of the key weights can engageV the blades vonly where they are not notched.

The blades have the extensions 311 to 317 which are j ournaled so as to turn with them, but not to slide longitudinally. The cranks 321 to 327 on the ends of extensions 311 to 317 move ieXible rods 331 to 337 through bearings in the transmission unit frame 200, shown in Fig. 1. Thus the turning of a blade in the keyboard results in the longitudinal movement of a corresponding horizontal rod in the transmission unit.

As shown in Figs. and 31, the transmission unit also includes vertical members 201 to 207, each of which has a projection, as 227, Fig. 30, which bears against a cam, as 357, on one of the horizontal rods, as 337, when in the normal position. When a horizontal rod is moved its cam causes the vertical rod corresponding therewith to move in a right line guided by the grooves, as 201a, in the plate 2000, (Fig. 32) at a right angle with the horizontal rods, on a roller provided at the lower portion thereof. These rollers, as 261, move in )grooves, as 261e, inthe plate 2005 (Fig. 34 i Figs. 30 and 33 show the cam yokes, as 281, pivoted at 281e, there being one cam yoke opposite each vertical rod, as 201. `Each yoke is supported, as at 2810, by a spring trip, as 271. A rotary cam, as 291, is pivoted near the center of each" yoke, each camr having a peripheral groove, across which is a pin, as 291a. Normally, these pins are kept against fixed stops, as 2915. j

Spring 241 normally keeps vertical rod 201 to the left, as 4viewed in Fig. 30.. lVhen cam 351, on rod 331, pushes rod 201 to the right, roller 261 trips lever 271, which is pivoted near the center andfis held inplace by a spring Vas shown. This trip Aleverallows cam yoke 281 to drop, releasing pin 2.91ct from stop 2915. Cam 291 drops, upon continuously revolving cylindery 208 and is revolved by it until pinf291a againl reaches stop 2915.A The eccentric revolution of the cam causes part2810 of the yoke to raise rod 201 because shoulder 2016i will be directly over it when roller 261 trips member 271. Spring 231 insures the return ofrod 201 down.. Spring-241 tends to keeprod 201 to the left as viewed in Fig. 30, but shoulder 2015, being against surface 2010 of guide 2000, prevents this spring from acting while rod 201 is raised, and thus keepsshoulder 20165 over part 2810I of the cam yoke 281 while these parts arel up. l'If horizontal rod'331 is not yet released (that is, if the key which moved it is still held down) when vertical rod 201 comes down', projection 221 will rest on cam 351 of horizontal rod'331. Then when the horizontal `rod is returnedto normaltheV magazine cam rods 101 to 107,.to which they are connected by cranks 111, shown in Figs. 1 and 3. The vertical rods aremade flexible enough to permit arcuate movement ofV said cranks. Turnbuckles, as 211, are provided for adjustment. L y

Y Upon the magazine plate bearing members are provided, as 1005, for the rockingrods 101 to 107, and one spring bar 1001 is provided for each channel of the magazine. Fig. 13 is a sectional view of the first channel of the magazine. There is an. eX- tension disposed at a right angle with the bodyof the bar atV 1100 which is securely held between the bed plate 1101 and the superposed plate 1102. Y A casing 1103 isheld upon the plates over the spring bars and secured by screws, as 11041, and is heldV at its forward edge uponan angle plate, as 1105, by screws, as 1106. The spring barsare disposed so as to span all of the rocking rods 101 to 107, and extend some distance'beyond to allow for spring action, so they may be released or elevated by the rocking rods. Onveach of the rocking' rods is a seriesv of cam elements, 101-1, 102-1, 103-1, 104-1, 105--1, 106-1 and 107,-1.

. Thesaid camsl Vmay `be integrallymade with the rocking rods, 101'to107, or may be made removable, as shown in Figs. 13Y to 28'` of the drawings inclusive. In the drawings, two ways of preventing the cams from turning upon thelrods are shown. The preferred manner, shown in Figs.` 13 to 22 inclusive consists of providing a plurality offgrooves as 101-1a', 102-1a, 10.3-1a, to 107-1a, for tongues of they cams. These cams are disposed at two different angles upon the rods,

so that someA of them will be inclined nor-v mally, but will be elevated to a'position perpendicularto. the ,magazine` when the rods are rocked. The rest of the cams are normally disposed perpendicularly, as cam V101-.1, Fig. 13 and inclined when rocked.

Under the springbar 1001, shown in Fig. 13, there are six normally inclined cams and one normally perpendicular cam. Thus this rocking rodor rods 'is actuated so as to ele-V vate the cam or cams disposed thereon beneath the said spring bar.

l.When the cam isagain raised to its perpendicular position, it raises springbar 1001 to its normal position; Thus the spring Vbar for Vthe channel shown in Fig. `15 is always released, and can Vbe released, only when rocking rod 101 and no other is actuated.V Rocking rod .101 canbe actuated, however, and spring bar 1001 will'not be released if any other one of the rocking rods is actuated at the same time because the cam on any of the rocking rods beneath sprinof'bar 1001, will be elevated and prevent it from being lowered before the cam on the rocking rod 101 releases the spring bar. Arc-shaped bearing surfaces 1001-1, 1001-2 to 1001-7 for the cams are provided on the under surface of the spring bar 1001, so that any inclined cam, which may be moved into the perpendicular position will be brought into contact with van arc-shaped bearing surface, so as to support'the spring bar before any perpendicular cam may be disengaged from an arcshaped surface.Y

Fig. '15 isa fragmentary view on an enlargedy scale of the arrangement of cams upon one of the rocking rods as 101, showing Vthe'grooves 101-1@.and 101- 16, in dotted lines. Figi 16 is a sectional view on an enlarged scale, showing the manner of disposing the cam upon therocking rod.

Fig. 17 shows the inclined position of oneV of the normally perpendicular cams and Fig. 18 shows-the perpendicular. position of a normally' perpendicular cam and itA also shows the position of a normally inclined cam when raised to the perpendicular position. Fig. 19 shows the normal lposition'of one of the inclined cams'. V

Each cam has one tongue as 1001-1@, 22. f rThe grooves on the rods are spaced about 60 degrees apart (an arc equal to the movement of the rocking rod). The tongues of the cams which are normally in the perpendicular position are secured in the groove 101-1@, and the tongues of those normally in the inclined position are disposed inv groove 101-16.V e Y.

' Fig. 20 is a side view of the-rod showing the grooves,one ofthe grooves being shown in dotted lines.y Fig. 21 is a sectional view showing the disposition of thegrooves without the cams in place. Fig. 22 shows the cam only.'

A modifiedform of the rod` and the cam is i shown" in Figs. 23 to 28 inclusive, each view Vcorresponding with the preferred form immediately above. The rockingrods, as 101-w are hexagonal and thecams 1001-1m are open Vpush it forward and thus ejectl atv the part which fits upon the `rod as Vat 1001-1mg so that .they'mayr beset in position upon the rods at any position. desired. f

lThe releasing means isV shown in a preferred form in Fig. 13 and other views. Y A' rod 1109 isdisposed horizontally across the n magazine and held rigidly upon suitable bearings. Rocking pawls, 1201, 1201, are disposed thereon at each channel. y The top kchannel lplate of the magazine is cut at 1301 and 1301@ to admit the finy gers 1201@ and 12016 of the pawl, and finger 1001@ of the spring bar 1001.' The fingers 100167and 10010 of the spring bar 1001 coact with fingers 12010 and 12010Z of the pawl 1201 so as normally to fretain the said pawl in Vthe position shown in the drawings, whereby thefinger 12016 is held in a lowered position. When the'pawl 1201 is in this position the finger 1201@ thereof is in an elevated position just above and back 'of the toe of the second matrix in the channel of the magazine, and said finger is so shaped'that when the pawl is rocked by the action of the flnv gers 10016 and r10010 of the spring bar when the spring bar moves downwardly, the fin-l ger 1201@ of the pawl 1201 impinges `forcibly against the toe of the second matrix, so as to the firstl matrix. Y,

Said linger of the pawl and finger 1001@ of the spring bar are thenin position to engage the ear of the second matrix and prevent the second matrix fromffollowing the lfirst matrix from the channel before the key for the channelis again` actuated. As the spring bar rises to its normal position the ngers thereof, 10016 and k10010 Vimpinge againstl the fingers 1201@ and'12010 of the pawl 1201 and restore itto vits normal position as shown in Fig. 13. Y

There is a recess 10010 in the' end of the finger 10010 of the spring bar, which inter- Alosy fits with the finger 12010 of thel pawl and prevents the pawl from rocking so as kto release the matrix resting-againstth'e finger 12016 thereof when the weight of other matrices in the channel rests against' the rst matrix. In this manner the finger 10016 impinges against the finger 120106 ofthe pawl 1201'to cooperate with the finger 10010 of the spring bar to restore the pawl toits normal position and to retain it in normal position. VVhen'the spring bar is lowered, the finger 10010 thereof drops within the recess 12010 of the pawl 1201 so as to permit the pawl to rock. p

The means for preventing the release of ymore than one matrix from the Vmagazine at a time consists of the extension 1001@ which projects intothe channel of the magazine in the path of the ear of the second matrix when the spring bar 1001 movesdownwardly as above described.

When the spring bar is restored to its nor-- mal position `the pawl 1201 is acted upon soindicate'the magazine channels, 1 to 90 and the first line being a duplication of channel 1, isindicated as 0. The broken horizontal lines indicates the cam rods 101 to 107 in-` clusive and the small circles at the intersections indicate the normally. perpendicular cam elements thereon.

For example: rlhe circle at the intersection of vertical linel, and horizontal line 101l indicates that there is a normally perpendicular cam there. and no other cani-'at channel 1 moves, the spring bar may be lowered to operate the escapement there. By looking below the character Vcarried by the matrix in channel 1 is found to be e. i

At the intersection of vertical line 5 (chan` nel 5 ofthe magazine) and broken line 105 (cam rod 105) a normally perpendicular cam is indicated, the only one over channel 5. When said cam is inclined, and no other cam under the spring bar over channel 5 is actuated, that spring bar is lowered and releases a matrix. The letter sho-wn below indicates that the character released is ci. By looking atvertical line 10, it will be seen that there are two small circlespone at the intersection of 101, and theother at 103, representing two normally perpendicular cams, andall the remainder of. the cams over channel 10 are normally inclined. When the said two cams are 'inclined and no other cams over channel 10 are actuated then the spring 'bar controlling channel 10. will be i lowered and a matrix ejected, and that character will be d.

Two letters under the diagram, or two characters, indicate' that the matrices used carry two different characters and that either the upper one will be desired without resort to the shift keys, or that by using thel shift keys the lower character is desired,lfor example, thematrixf carrying the characters figure 1 and small capital v may be released by thefll key with or without shift if l is desired and by the vkey with the small capital shift if`v is desired. TheV character cast from it is determined by thev operator, and the casting is done by means well known to those skilled in the art.

' The modifiedV form of weights"` shown `in Figs. 38 to 42l inclusive, are made of sheet metal. The numeral 2000 represents the assembled weight; 2001 the central member having'recesses 2002 and 2008- inclusive in one side thereof, and recesses 2009 to20l3, inclusive upon `the'Treverse edge.V Fingers AlVhen that cam is inclined` 2.014 to 2021 are disposed inthe firstV mentioned recesses and any one of the key bars 2022 to 2026 may be inserted in one of thelast mentioned recesses. The outer membersare designated bythe numerals 2027 `and 2028.

'Rivets, as 2029, may be used to secure the parts together. Pins, as 2030, arezsecured in the holes of the outer plates, and extend across the recesses 2002 to 2008 to serve as supports for the lingers 2014 to2021. The said fingers are removable. Y

In the modified weight 3000 shown in Figs. 43,44 and 45,-recesses as 3004 are-cut in the edge of the inner member v3001 to admit 1ingers 3005, andin the opposite edge to admit key bars, noty shown, as at 3006. The outerv member, indicated by numeral 3002, is a casing made of one piece of sheet metal. Recesses therein correspond with the recesses 3006 of the inner member to admit key bars. The lingers, as 3005, are disposedin the recesses of `the inner member and the casing is then assembled therewith, the sides thereof holding the said fingers firmly in place.

Figs. 46 and 47 showa` still further modification of the form of the keyweights employed. 4000 indicates the key weight as a. whole, and 4001 the support, having recesses 1 as 4002 for key bars (not shown) land clutches, as 4003, removably toretainthe fingers, as 4004. In 'all of the modified forms of the weight it is possible to employ lstraight-edged blades, which have no Vpart cut away to prevent the lingers of vthe weights from engaging the same, since the lingers may be removed at each point where there should be no engagement.

My selective mechanism may be employed for perforating strips of material used for controlling electrical or pneumatic mechanism,ras shown in Fig. 35. In Fig. 35, 5000 indicates the body of the part of the mechanism which would correspond with the transmission unit of the preferred form of my device shown in Fig. 1, and other figures of the drawings. The vertical vbars 5001 to 5007correspond with the vertical bars 201 to 207 in Fig. 1. 5008 indicates a perforated plate, 5009 a superposed perforated plate, and 5010 a strip to be perforated. This strip 5010'passes through a recess, as indicated, and the bars 5001 to 5007 `aredisposed in the bores 5011 to 5017 of the plate 5008. Whenever one or' more of the bars are elevate-d., in a manner similar to the process described hereinbefore in the descriptionof the preferred form of my deviceas'applied-to a Y typographical machine, then each bar that or power typewriters is `illustrated injFigs,

36 and-37 of the drawings` In Fig. 36 the type barsgn10002, 10003 and 10004 are type bars. 10005, 10006 and 10007 are spring bars spring tension when released. 10011 to 10017 are camrods, (some of which are not shown) which normally hold thesaid spring bars in engagement with the said type bars and pre vent the type bars from moving toward the platen 10018. The reciprocating member 10019 Arestores the type bars 'to their normal position by action through the cam lever 10020, driven by mechanism'not shown, synchronously with the action of rthe mecha-V nism by which the spring bars are released. Any Suitable motive powermay be employed for actuating theparts shown, and thisfezb ture I do not claim as a part of my invention, but Wish to claim only those elements whichv areV essential to the selective mechanism ,de-`

scribed. Y p

10002a,' 10003a, and 100011@ are shoulders Y' :25 upon the type bars which are engaged by the Y reciprocating member 10019 to restore the typebars tov normal position. There is a Vfcatch, as 10005a, 10006@ and 10007 a on each of the Yrespective spring bars, to engage an '30 extension upon each. of the type bars, so that when anyone or more ofthe spring bars is Vreleased by the action of the cam rods, thetype bar will be immediately released, and the type will strike the paperupon the roll, by

VY means ofvth-e force of a spring, as 1000479.

Y The reciprocating member 10019 will restore each type bar as soon as power typewriter may be effected by the key-v board and transmission mechanism hereinbefore described.

the specific form of the machine, with especial attentiongiven to the action lof the keys relative to their respective matrix channels follows. i f

The'font-s of two-letter matrices in general n use carry roman letters in the ordinary position and bold-face or italicsY with small capitals in the raised orauxiliary position. These fonts'may be divided arbitrarily into four groups: (1) thelower-case letters; (2) the small capital letters; (3) the capital letters; (4)- quads, leaders, figures, ligatures, marks ofV punctuation and signs (such as asterisk, ampersand, etc.). Fig. 12 shows that'with the exception of z the lowercasezletters require no movement ofblades ,106 and V107; the smal-l capital combinations always include blade 106 and never include blade- 107 the capital letters with the exception v:of Z

V(V73 require a movement of blade 107 ybut notfnormallyengaging the said type bars-and retaining4 them in readiness for action, by

it has contacted withfthe paper on the roll. Adjustment for Y A detailed description of the operation of and blade 307 inthe normal position, depres-v `blade 106;' and the fourth arbitrary group may or mayl not require eitherior both. of said blades. For' all keyswhich control lettersv of the alphabet (except z), therefore, the shiftable blades 106 and107 are notched opposite the weights in the `normal position, so as not to be moved by them, but they are not notched in the shifted position. For all keys which arel not letters. of the alphabet (group 4L above) the normal and shifted com'- binations of the blades are duplicate (that is, either both notched or neither notched, as

the case may be), and thus any shift doesk not change the combinations for this group. A (1) With the shiftableblades in the normal position, ify key 21, B, is depressed the movement will raise the' corresponding weight, and, according to'Fig. 10, blades 301,

303 and 305 will berocked, since these blades' are not notched at that place (indicatedby broken line 21). vThe uppermost figure next to tle 21st key, B in Fig'. 2, showsthatthe 20th channel ofthe magazine. is controlled by this key when both shiftable blades are in the normal position. Referring toline 20 in Fig. 12, it is seen that this 20th`channel of* the magazine contains the lower-case b matrices, and that on yrods 101, 103 and-1045'.

the camsvarenormally perpendicular at that lace and theV Cams on theother rods (102, 104, 106 and 107) are normal-lyinclined. Simultaneous movement of blades 301, 303 and 305 results in va corresponding movement (by means of the connecting'parts, as before ex-- plained) of the rods 101, 103,-andV 105, and, accordingly,.inclination of the cams on those rods at the 20th channel. cams here are normally Vinclined and'k have Since theV otherl not been moved, all the cams therefore are Y then inclined, unlocking the'20thspring bar, which acts to eject one matrixfrom thatchannel. Thesameprocess-is folflowedfor each lower-case letter except z, each havingy a different combination. s f (2) With blade 306 in they shifted position sion of key B results in the movement of blades 301, 303, 305, and 306V. In Fig. 10,

the portion of blade 306 between lines 21V and 22 is shown solid.' Shifting this blade brings this solid portion directly opposite the weight for key 21, so this bla-de306 is moved in addition to the regular blades moved by-thiskey. The'middle figure next to theB key in Fig` 2 is V50,v showingthat the 50th channel of the magazine is controlled thereby when` the smallV capital shift obtains. Referring `to line 50 in Fig. 12, it is seen thatthe 50th channel contains matrices which havethe figure 2 in theirlower position and y the small capital B inthe upper position for casting. At the 50th 'channel the bars 101, 103,105, and 106 carryperpendicular 1 lcams and when these cams are inclined'fand the other Gains (on. bars 102,10@ and 107) are not raised, the spring bar Afor channel 50 is unlocked, resulting in ejection of a matrix carrying the figure 2 and the small capital B. The operator directs the desired character, B, to the mold by means ofv a duplex rail in the assembling mechanism, this method being known to those skilled in the art, and is not a part of this invention. All

the other small capitals are similarly obi 301, 303, and 305 when the weight for key 21 is raised. The bottom ligure next to key B in Fig. 2 shows that with this shift the 80th channel is controlled. Fig. 12 shows thatf the 80th channel contains the capital B matrices and that the cams are normally perpendicular at this Vchannel on bars 101, 103 105 and 107. Simultaneous movement of blades 301, 303, 305, and 307 results in simultaneous movement of bars 101, 103, 105V and 107, inclining the perpendicular cams. vSince bars 102, 104;, and 106, carrying inclined cams are not' moved, the 80th spring bar is unlocked and one capital B matrix ejected accordingly. All the other capital letters are similarly obtained (except Z).

(4:) With blades 306 and 307 in any position, if the 52nd kej 2, is depressed blades 301, 303,305, and 306 'will' move. Shifting blades does not l change this combination,

.1' since 2, being a numeral, is of the fourth groupi mentioned above, Aand therefore the combinations are duplicated on the shiftable blades where they cross the weight for this character.' Whenever this key is depressed .Fi the matrix carrying the 2 and small capital B will be delivered in the same way that it is delivered when the blade 306 is in'shifted position and blade`307 in normal position and key B depressed. VJ hen the small-capital shift Vis in effect that'matrix will be ejected as a result of operating either the B or the 2 key. All of the other matrices of 'the fourth arbitrary group which carry small capitals in the upper position (see Fig. 12) are obtained in a similar manner.

(5) IV ith blades 306 and 307 in any position, if the 46th key is depressed blades 301, 305, 306, and 307 will be moved by its weight;

see 10. The three figures next to the hyphen key in F ig. 2 all being the same, show" that the L13rd channel of the magazine is always controlled thereby. whatever the position of the shiftable blades. VNo other key will give Vthe same combination with any Shift. The cams on bars 101, 105, 106, and

107 at the' 43rd .channel are normally'pery pendicular, so when they are inclined simultaneously and none of the other cams (on bars 102, 103 and 104C) are raised, the spring bar of the 43rd channel is unlocked, resulting in the ejection of a matrix bearing a hyphcn. All of the other matrices of theV fourth arbitrary group not carrying small capitals u are `obtained in a similar manner. y:

The small capitals X and Z do not run in the magazine ordinarily, but are putinto the assembler by hand.

The lowercase z is an exception to the system of combinations explained above for a specific form of the device applied to a matrix magazine of the kind now in general use.

rIhe depression of the Z key (number 14) results in a movement of blades 303, 305, 306 and 307, under normal conditions of shift.

Shifting blade 306 does not affect this key.`

Shifting blade 307 results in the combination 303, 305,`and 306, since at this place blade 307 is solidl in the normal position and notched in the shifted position (the o posite of all the Y other letters of the alphabet and this combination controls channel 86, which contains matrices bearing the capital Z in the lower position and the small capital U in the upper position. The latter combination is also obtained when the small capital shiftis in effect and the U key is depressed.

The foregoing description shows the characters are selected by the combination of eley' ments actuated, and that that combination'is effected by a weight turning certain blades. The combination of blades turned is determined by the presence or absence of notches on the blades opposite that weight, or by the presence or absence of fingers on that weight. Thus the keys are arranged in accordance with the notches in the blade or the fingers'onV the weights, and this arrangement is in nol way limited by the sequence of the character channels inthe magazine.

While I have shown seven elements, I deside it to be understood that I do not limit myself to 'that specific number, but have used it because it is the smallest number that will serve to operate the. escapements of the magazine most commonly in use. The number fof changes possiblewith even blades is the seventh power of, 2, minus 1,V equals 127, the subtracted unit representing the combination for the normal position. f Y Y Two Vshifts are shown because three alphabets are used, that is; lower case, small same results in selecting type units, as in the,

plan'or'means shown and .-described. I t is f also possible to obtain ,all combinationspby having one key for each blade and using these ics . keys simultaneously in various combinations,

The cam bars may be lengths-ned to cross an auxiliary magazine, and another blade made shiftable toY controly its characters. Y

Invtheembodiment of the invention here shown, vif any two keys are operated simultaneously, the result will be the addition of ythetwo combinations corresponding to those keys and'this addition will result in a third combination, which will be transmitted to the magazine, and a character corresponding to the third combination will be selected. Thus it is impossible to release more than one matrix at the same time, regardless of the number-of keys touched at the same time.

rIhis eliminates a difficulty with the .present machines, when several keys are accidentally depressed at once. f y

VVhilerweights are shown in the keyboard to turn theblades, incertain cases it would be convenient to use slides held by springs, for instance, if required to dispose the ele- Vments in other than the vertical position shown. I therefore desire it to be understood that I do not limit myself to the specific construction and arrangement of the parts, but I have here shown my invention only in oneV preferred form and by way of example,

and as applied to a machine of the class mentioned. Many modifications and alterations .therein and in their mode of application, may

suggest themselves to those skilled in the art without departure from its scope. I therefore desire it to be ,understood that I do not limit myself to lany specific vconstruction or arrangementof Vthe Vparts,-eXcept insofar as such limitations are specified in the claims.

What is desired to be secured by Letters Patent and is claimed as new is: Y

1. In a typographical machine having a selectivemechanism adapted to be actuated by a keyboard mechanism, a pluralityof keys,

, movably held adjacent to the Weight-s, and so a lever for each of the keys, a weight movablyl held and adapted to be moved by each key i lever, a plurality of extensions `on each weight; a plurality of parallel blade elements Y formed that each of .the weights will engage a Yselective number of the bladeelements when moved bythe keys; means for transmitting the-.movement to a corresponding number of selective-elements ofthe selective mechanism to be actuated by the keyboard. n

2. In a typographical machine, a keyboard of the layout shown, each key having a key` lever; a weight movably held and adapted to be `actuated by each key lever; each weight having a plurality of extensions thereon; a plurality of parallel blades movably held in horizontal position in alinement with the eX- tensionsvef the Weights, said blades having indentations at various portions thereof, and

. thereby so arranged that the-extensions of the Weights selectively engage certain of the blades when actuated bythe keyY levers, and

simultaneously actuate the blades; and means for simultaneously transmitting movement from the bladesV to corresponding parallel selective elements of selective mechanism to be operated.

3. In a typographical machine,a selective mechanism to` be actuated by a keyboard, in-

1 cluding a plurality of movable parallel memy bers; a plurality of corresponding parallel Y movable members mounted in the keyboard mechanism; means for selectively actuating tain the said rods in normal position; the

cams on the horizontal rods being adapted toV move the vertical rods in a lateral direction`A .Y

from the horizontal rods, in the guides provided for the lower endsl of the vertical rods, said vertical rods having shoulders thereon; trip-yokes, adapted for being tripped by Vthe vertical rods when movedlaterally and cam yokes adaptedfor engaging the shoulders of thevertical rods, and raising them vertically in the guides, and shoulder elements on the vertical rods adapted to engage the upper f surfaces'of the cams ofV the-horizontal rods,

whereby each of the vertical rods are held in an elevated position after being raised by the cam yokes until 4the horizontal rods and thel selective blades have been restored Y* to their normal position, and the selective group of vertical rods can not be again raised as required Vto actuate the selective mechanism, until the mechanism has been restored to normal; and means connectedwithjthe 1 vertical rods for actuating the selective mechanism so that the control for a character cor- A responding with the character ofthe key of the leverl actuated, will be actuatedA in the selective mechanism.

4. In a typographical machine, a keyboard, a key lever for each key, a plurality of selective blades, some` of-said bladesbeing movable longitudinallyv andall-of said blades being movable upon aXes; a weight element movable by each key lever of the keyboard,-

eXtensions on the weight elements adapted to Y engage the blades, and an extension and ay blade adapted for locking the weight elements so that they cannot be moved by the key levers, and means for retaining the locking blade in both the locked and unlocked position. v Y

5, In a typographical machine, selective mechanism, comprising, a plurality. of'keys` a rplurality of weights, one adapted to be moved by each key, each of said Weights having a plurality of extensions thereonya, 

